Isotopic fractionation in sputtering
Isotopic fractionation due to sputtering has been investigated via a collector type experiment in which targets of known isotopic composition have been bombarded with several keV Ar<sup>+</sup> and Xe<sup>+</sup> ions with fluences down to 3.0x10<sup>14</sup> io...
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ndltd-CALTECH-oai-thesis.library.caltech.edu-86122019-12-21T03:06:13Z Isotopic fractionation in sputtering Spicklemire, Stephen James Isotopic fractionation due to sputtering has been investigated via a collector type experiment in which targets of known isotopic composition have been bombarded with several keV Ar<sup>+</sup> and Xe<sup>+</sup> ions with fluences down to 3.0x10<sup>14</sup> ions/cm<sup>2</sup> , believed to be the lowest fluences for which such detailed measurements have ever been made. The isotopes were sputtered onto carbon collectors and analyzed with Secondary Ion Mass Spectroscopy (SIMS.) There is clear indication of preferential effects several times that predicted by the dominant analytical theory. Results also show a fairly strong angular variation in the fractionation. The maximum effect is usually seen in the near normal direction, measured from the target surface, falling continuously, by a few percent in some cases, to a minimum in the oblique direction. Measurements have been made using Mo isotopes: <sup>100</sup>Mo and <sup>92</sup>Mo and a liquid metal system of In:Ga eutectic. The light isotope of Mo is found to suffer a 53 ± 5‰ (note: 1.0‰ ≡ 0.1%) enrichment in the sputtered flux in the near normal direction, compared to the steady state near normal sputtered composition, under 5.0 keV Xe<sup>+</sup> bombardment of 3.0 x 10<sup>14</sup> ions/cm<sup>2</sup>. In the liquid metal study only the angular dependence of the fractionation could be measured due to the lack of a well defined reference and the nature of the liquid surface, which is able to 'repair' itself during the course of a bombardment. The results show that <sup>113</sup>In is preferentially sputtered over <sup>115</sup>In in the near normal direction by about 8.7 ± 2.7‰ compared to the oblique direction. <sup>69</sup>Ga, on the other hand, is sputtered preferentially over <sup>71</sup>Ga in the oblique direction by about 13 ± 4.4‰ with respect to the near normal direction. 1990 Thesis NonPeerReviewed application/pdf https://thesis.library.caltech.edu/8612/2/Spicklemire_sj_1990.pdf https://resolver.caltech.edu/CaltechTHESIS:07282014-093054555 Spicklemire, Stephen James (1990) Isotopic fractionation in sputtering. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/XEGH-4365. https://resolver.caltech.edu/CaltechTHESIS:07282014-093054555 <https://resolver.caltech.edu/CaltechTHESIS:07282014-093054555> https://thesis.library.caltech.edu/8612/ |
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Isotopic fractionation due to sputtering has been investigated via a collector
type experiment in which targets of known isotopic composition have been bombarded
with several keV Ar<sup>+</sup> and Xe<sup>+</sup> ions with fluences down to 3.0x10<sup>14</sup> ions/cm<sup>2</sup> ,
believed to be the lowest fluences for which such detailed measurements have ever
been made. The isotopes were sputtered onto carbon collectors and analyzed with
Secondary Ion Mass Spectroscopy (SIMS.) There is clear indication of preferential
effects several times that predicted by the dominant analytical theory. Results also
show a fairly strong angular variation in the fractionation. The maximum effect is
usually seen in the near normal direction, measured from the target surface, falling
continuously, by a few percent in some cases, to a minimum in the oblique direction.
Measurements have been made using Mo isotopes: <sup>100</sup>Mo and <sup>92</sup>Mo and a
liquid metal system of In:Ga eutectic. The light isotope of Mo is found to suffer a
53 ± 5‰ (note: 1.0‰ ≡ 0.1%) enrichment in the sputtered flux in the near normal
direction, compared to the steady state near normal sputtered composition, under
5.0 keV Xe<sup>+</sup> bombardment of 3.0 x 10<sup>14</sup> ions/cm<sup>2</sup>. In the liquid metal study only the
angular dependence of the fractionation could be measured due to the lack of a well
defined reference and the nature of the liquid surface, which is able to 'repair' itself
during the course of a bombardment. The results show that <sup>113</sup>In is preferentially
sputtered over <sup>115</sup>In in the near normal direction by about 8.7 ± 2.7‰ compared
to the oblique direction. <sup>69</sup>Ga, on the other hand, is sputtered preferentially over
<sup>71</sup>Ga in the oblique direction by about 13 ± 4.4‰ with respect to the near normal
direction. |
| author |
Spicklemire, Stephen James |
| spellingShingle |
Spicklemire, Stephen James Isotopic fractionation in sputtering |
| author_facet |
Spicklemire, Stephen James |
| author_sort |
Spicklemire, Stephen James |
| title |
Isotopic fractionation in sputtering |
| title_short |
Isotopic fractionation in sputtering |
| title_full |
Isotopic fractionation in sputtering |
| title_fullStr |
Isotopic fractionation in sputtering |
| title_full_unstemmed |
Isotopic fractionation in sputtering |
| title_sort |
isotopic fractionation in sputtering |
| publishDate |
1990 |
| url |
https://thesis.library.caltech.edu/8612/2/Spicklemire_sj_1990.pdf Spicklemire, Stephen James (1990) Isotopic fractionation in sputtering. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/XEGH-4365. https://resolver.caltech.edu/CaltechTHESIS:07282014-093054555 <https://resolver.caltech.edu/CaltechTHESIS:07282014-093054555> |
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